目的:应用广角扫频源光学相干断层扫描成像(swept-source optical coherence tomography, SS-OCT)的en face结构投射图研究玻璃体早期液化特征。方法:使用SS-OCT进行18 mm×18 mm 的容积(Cube)扫描,创建并分析健康未成年人(年龄5~18岁)70眼的系列玻璃体en face结构投射图。 结果:在未成年人中,视网膜前的玻璃体包含4种液化结构,分别为后皮质前玻璃体囊袋(posterior precortical vitreous pocket, PPVP)、视盘前Martegiani区(the area of Martegiani, AM)、血管前液化裂隙(prevascular vitreous fissures,PVF)和液化池(cistern)。所有研究眼均能检出PPVP、AM和PVF,其中22眼(31.4%)的PPVP和AM连通。41眼(58.6%)可检出液化池,且其年龄大于未检出液化池的个体(P =0.01),液化池的发生与年龄呈正相关(rs=0.315,P =0.008)。液化池的象限空间分布频率依次为颞上(90.2%)、鼻上(58.5%)、颞下(36.6%)、鼻下(24.4%),最常累及颞上象限(P<0.001)。 结论:PPVP、AM和PVF是健康人群视网膜前玻璃体早期液化过程中均出现的特征。液化池的发生与年龄呈正相关,最常出现在颞上象限,可能是年龄相关性玻璃体液化变性的结果。
Objective: To investigate the early vitreous liquefaction characteristics using en face structural projection images obtained by wide-angle swept-source optical coherence tomography (SS-OCT). Methods: SS-OCT was employed to perform 18*18mm volumetric (Cube) scans. A series of en face structural projection images of the vitreous were created and analyzed for 70 eyes from healthy minors aged between 5 and 18 years. Results: In minors, four types of vitreous liquefaction structures were identified anterior to the retina: pre-posterior vitreous pocket (PPVP), the preoptic area of Martegiani (AM), pre-vascular liquefaction fissures (PVF), and cisterns. PPVP, AM, and PVF were detectable in all studied eyes, with PPVP and AM being interconnected in 22 eyes (31.4%). Cisterns were observed in 41 eyes (58.6%), and the mean age of individuals with cisterns was higher than those without (P =0.01). The occurrence of cisterns positively correlated with age (r=0.315; P=0.008). The frequency of cistern quadrant distribution was highest in the superotemporal quadrant (90.2%), followed by the superonasal quadrant (58.5%), inferotemporal quadrant (36.6%), and inferonasal quadrant (24.4%). The superotemporal quadrant was the most frequently affected (P <0.001). Conclusion: PPVP, AM, and PVF are features consistently observed in the early vitreous liquefaction process anterior to the retina in healthy individuals. The occurrence of cisterns positively correlates with age and is most common in the superotemporal quadrant, possibly representing the result of age-related vitreous liquefaction degeneration. These findings provide a theoretical foundation for studying the pathogenesis of vitreoretinal interface diseases.
髓上皮瘤是源自神经系统的一种少见的恶性肿瘤, 多发生在中枢神经系统和睫状体,而源自视神经的恶性髓上皮瘤则很少见, 国内尚未有病例报道。此病早期类似胶质瘤, 易造成误诊。本文报道了 1 例 3 岁 10 个月的男性患儿, 经部分肿物切除活检发现肿瘤具有典型恶性髓上皮瘤的病理特点, 部分瘤细胞向软骨细胞分化, 并逐渐形成透明软骨岛, NSE 及 S-100 表达阳性, 病理诊断为源自视神经的畸胎性恶性髓上皮瘤。
Medulloepithelioma is a clinically uncommon tumor originated from nervous system, often occurred in central nerve system and ciliary body, and malignant medulloepithelioma of the optic nerve is far rarer. So far, there has been no case report in China. It may be clinically misdiagnosed because it resembles glioma at the early stage of the disease. We reported a boy with a tumor in his right eye at age of 3.8 years, which was shown by biopsy of the partial tumor that there were some obviously heteromorphous neoplastic cells, karyokinesis, and moreover, some neoplastic cells differentiatied into cartilage cells, gradually formed into hyaline cartilage islands and the expressions of NSE and S-100 were positive. Teratoid malignant medulloepithelioma of optic nerve was made pathologically.
目的:评估硅油填充术后眼压对角膜内皮细胞的影响及变化特点。方法:选取2019年1月1日至9月30日在佛山市第二人民医院眼科中心行玻璃体切除联合硅油注射的患者共131名,分为高眼压组(n=80)和正常眼压组(n=51)。高眼压组术后任意一次测眼压>21 mmHg,正常眼压组术后眼压均≤21 mmHg。比较填充硅油前与取硅油时的角膜内皮细胞参数测量值。结果:高眼压组的平均眼压为20.79 mmHg,正常眼压组的平均眼压为14.70 mmHg(P<0.001)。取硅油时,两组角膜内皮细胞密度(corneal endothelial cell density,ECD)均明显减少,平均内皮细胞面积均明显增大(P<0.05),高眼压组内皮细胞大小变异系数(coefficient of variation of endothelial cell size,CV)明显变大(P<0.05)。高眼压组ECD丢失率(6.3%)高于正常眼压组(3.5%);其中,高眼压组中术后1~6周内的眼压升高(7.1%)、眼压≥40 mmHg(7.3%)对角膜内皮细胞影响最大。ECD丢失与眼压变化有显著相关性(r=0.176,P=0.044)。结论:硅油填充后高眼压是角膜内皮细胞丢失的重要危险因素。
Objective: To evaluate the effect of intraocular pressure (IOP) on corneal endothelial cells after silicone oil tamponade. Methods: Patients (n=131) received vitrectomy with silicone oil injection in Ophthalmology Center in Second People’s Hospital of Foshan City from January 1st to September 30th 2019 were divided into the high IOP group (n=80) and normal IOP group (n=51). IOP was >21 mmHg at any time in the high IOP group and was ≤21mmHg in the normal IOP group after surgery. The values of corneal endothelial cells before filling with silicone oil and before removing silicone oil were compared.Results: The average IOP was 20.79 mmHg in the high IOP group, and 14.70 mmHg in the normal IOP group (P<0.001). The number of endothelial cells (ECD) was reduced, but the average endothelial cell area was increased (P<0.05) in both groups. The coefficient of variation of endothelial cell size in high IOP group was increased (P<0.05). ECD loss rate was 6.3% in the high IOP group and 3.5% in normal IOP group. Increased IOP within 1–6 weeks after surgery (7.1%) and IOP ≥40 mmHg (7.3%) had the greatest impact on ECD. ECD loss was correlated with IOP (r=0.176, P=0.044). Conclusion: High intraocular pressure after silicone oil filling is an important risk factor for the loss of corneal endothelial cells.Keywords intraocular pressure; corneal endothelium; silicone oil; vitrect
目的:探讨光学相干断层扫描血管成像(optical coherence tomography angiography,OCTA)扫描信号强度对视盘周围血管密度的影响。方法:本研究为单中心横断面研究,所有受试者分别接受了身高、体重、血压、眼压、眼轴及视盘OCTA检查,利用广义估计方程分析OCTA扫描信号强度对视盘周围血管密度的影响。结果:共186人359眼纳入本研究,年龄为(47.86±17.86)岁,视盘周围血管密度为(17.75±1.99)mm?1 。单因素分析显示视盘周围血管密度与眼轴呈负相关(β=?0.5120,P<0.001),与扫描信号强度呈正相关(β=1.0240,P<0.001)。在校正了年龄、性别、视盘面积及眼轴后的多因素分析中,OCTA扫描信号强度依然与视盘周围血管密度显著正相关(β=0.9721,P<0.001)。结论:视盘周围血管密度不仅与眼轴和视盘面积显著负相关,而且与OCTA扫描信号强度显著正相关,在临床应用或研究中,需要考虑其影响。
Objective: To explore the effect of scanning signal intensity on the peripapillary vessel density measured by optical coherence tomography angiography (OCTA). Methods: This study was a single-center cross-sectional study. All the participants received comprehensive examinations including height, weight, blood pressure,intraocular pressure, axial length, and OCTA scan of the optic disc. The effect of OCTA scanning signal intensity on the peripapillary vessel density was analyzed using the generalized estimation equation. Results: A total of 186 participants with 359 eyes were included in this study. The mean age of all the participants was (47.86±17.86)years old, and the average peripapillary vessel density was (17.75±1.99)mm?1. In a univariate analysis,peripapillary vessel density was associated with the axial length (β=?0.5120, P<0.001) and the scanning signal intensity (β=1.0240, P<0.001). After adjusting for age, gender, axial length, and optic disc area in the multivariate analysis, the OCTA scanning signal intensity was still significantly associated with the peripapillary vessel density (β=0.9721, P<0.001). Conclusion: The peripapillary vessel density is significantly negatively associated with the axial length and optic disc area, significantly positively associated with the scanning signal intensity. In clinical practice, the influence needs to be considered.
目的:探讨光学相干断层扫描血管成像(optical coherence tomography angiography,OCTA)扫描信号强度对视盘周围血管密度的影响。方法:本研究为单中心横断面研究,所有受试者分别接受了身高、体重、血压、眼压、眼轴及视盘OCTA检查,利用广义估计方程分析OCTA扫描信号强度对视盘周围血管密度的影响。结果:共186人359眼纳入本研究,年龄为(47.86±17.86)岁,视盘周围血管密度为(17.75±1.99) mm?1。单因素分析显示视盘周围血管密度与眼轴呈负相关(β=?0.5120,P<0.001),与扫描信号强度呈正相关(β=1.0240,P<0.001)。在校正了年龄、性别、视盘面积及眼轴后的多因素分析中,OCTA扫描信号强度依然与视盘周围血管密度显著正相关(β=0.9721,P<0.001)。结论:视盘周围血管密度不仅与眼轴和视盘面积显著负相关,而且与OCTA扫描信号强度显著正相关,在临床应用或研究中,需要考虑其影响。
Objective: To explore the effect of scanning signal intensity on the peripapillary vessel density measured by optical coherence tomography angiography (OCTA). Methods: This study was a single-center cross-sectional study. All the participants received comprehensive examinations including height, weight, blood pressure, intraocular pressure, axial length, and OCTA scan of the optic disc. The effect of OCTA scanning signal intensity on the peripapillary vessel density was analyzed using the generalized estimation equation. Results: A total of 186 participants with 359 eyes were included in this study. The mean age of all the participants was (47.86±17.86) years old, and the average peripapillary vessel density was (17.75±1.99) mm?1. In a univariate analysis, peripapillary vessel density was associated with the axial length (β=?0.5120, P<0.001) and the scanning signal intensity (β=1.0240, P<0.001). After adjusting for age, gender, axial length, and optic disc area in the multivariate analysis, the OCTA scanning signal intensity was still significantly associated with the peripapillary vessel density (β=0.9721, P<0.001). Conclusion: The peripapillary vessel density is significantly negatively associated with the axial length and optic disc area, significantly positively associated with the scanning signal intensity. In clinical practice, the influence needs to be considered.
